论文信息 - 365 nm Ultraviolet Laser Diodes Composed of Quaternary AlInGaN Alloy

365 nm Ultraviolet Laser Diodes Composed of Quaternary AlInGaN Alloy

Ultraviolet (UV) laser diodes (LDs), whose active layer were quaternary AlxInyGa1-x-yN single-quantum well structure, were grown on epitaxial lateral overgrown GaN substrates by a metalorganic chemical vapor deposition method. We investigated the lasing wavelength dependence of UV LDs on the threshold current density. As a result, we succeeded in fabricating 365 nm UV LDs which are useful for various industrial uses because their wavelength is similar to that of the i-line of high-pressure mercury vapor lamps. The threshold current and voltage of the 365 nm UV LD under continuous wave (cw) operation at 25°C were 50 mA and 4.8 V, respectively. The estimated lifetime of the 365 nm UV LDs was approximately 2000 h at an output power of 3 mW under cw operation at 30°C. The shortest lasing wavelength was achieved at 354.7 nm under pulse current injection at 25°C.

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